CN105493531A - Method and apparatus for transmitting interest indication for group communication in wireless communication system - Google Patents
Method and apparatus for transmitting interest indication for group communication in wireless communication system Download PDFInfo
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- CN105493531A CN105493531A CN201480047030.6A CN201480047030A CN105493531A CN 105493531 A CN105493531 A CN 105493531A CN 201480047030 A CN201480047030 A CN 201480047030A CN 105493531 A CN105493531 A CN 105493531A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/06—Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
- H04W4/08—User group management
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/02—Details
- H04L12/16—Arrangements for providing special services to substations
- H04L12/18—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast
- H04L12/189—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast in combination with wireless systems
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/06—Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W68/00—User notification, e.g. alerting and paging, for incoming communication, change of service or the like
- H04W68/005—Transmission of information for alerting of incoming communication
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/30—Resource management for broadcast services
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/27—Transitions between radio resource control [RRC] states
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/02—Details
- H04L12/16—Arrangements for providing special services to substations
- H04L12/18—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast
- H04L12/1859—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast adapted to provide push services, e.g. data channels
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/02—Details
- H04L12/16—Arrangements for providing special services to substations
- H04L12/18—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast
- H04L12/1895—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast for short real-time information, e.g. alarms, notifications, alerts, updates
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/40—Connection management for selective distribution or broadcast
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- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Multimedia (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
A method and apparatus for transmitting an interest indication for group communication in a wireless communication system is provided. A user equipment (UE) receives a paging message indicating a group, establishes a radio resource control (RRC) connection with an establishment cause indicating the group, and transmits an uplink interest indication message which informs a service or the group.
Description
Technical field
The present invention relates to a kind of radio communication, and more specifically, relate to a kind of method and apparatus indicated for the interest sent in a wireless communication system for group communication.
Background technology
Universal Mobile Telecommunications System (UMTS) is the third generation (3G) asynchronous mobile communiation system, and it is based on the operation in Wideband Code Division Multiple Access (WCDMA) (WCDMA) of European system, global system for mobile communications (GSM) and General Packet Radio Service (GPRS).In the middle of the Long Term Evolution (LTE) of UMTS is being discussed by the third generation partner program (3GPP) of standardization UMTS.
3GPPLTE is the technology for enabling high speed packet communication.Being intended to reduce user and provider's cost, improve service quality and expand and improve the LTE target of covering and systematic function to comprise, having proposed many schemes.3GPPLTE requires every bit minimizing cost, increases the suitable power consumption of service availability, flexibly service band, simple structure, open interface and terminal as high level requirement.
Public safety network is provided for the communication of serving as police, fire and ambulance.In this area, the system that the specific communications that development of robust is high and can solve emergency services needs has been required.This has promoted to be provided in the public safety standard of the stack features previously do not supported in commercial cellular system.These standards have also been applied to the business critical communication needs of such as airport operation.
Two main region that 3GPPLTE strengthens have been discussed to solve public safety applications.First area is identified in the close mobile phone of physics and the close of optimize communicate can serves (ProSe) between which.Second area supports for the group calling system enabler of the efficient of such as one-to-multiple call and traffic control with the basic demand of dynamic group traffic operation.
3GPPLTE can provide multicast broadcast multimedia service (MBMS) to serve.MBMS is the service simultaneously sending packet to multiple user.If other user of a specific order exists in identical community, then each user can be allowed to share necessary resource and to make multiple user can receive identical multi-medium data, thus increase resource efficiency.In addition, from the angle of user, multimedia service can be used with low cost.
The method for supporting the group communication via MBMS can be required.
Summary of the invention
Technical problem
The invention provides a kind of method and apparatus indicated for the interest sent in a wireless communication system for group communication.The invention provides a kind of method for supporting via the group communication of multicast broadcast multimedia service (MBMS).The invention provides a kind of for sending the method indicated for the interest of group communication via MBMS.
The solution of problem
In an aspect, provide a kind of for sending by subscriber equipment (UE) method that the interest for group communication indicates in a wireless communication system.The method comprises: the beep-page message receiving instruction group; The reason of setting up of instruction group is utilized to control (RRC) connection to set up radio resource; And send the up link interest Indication message of notification service or group.
In another aspect, the subscriber equipment in a kind of wireless communication system (UE) is provided.UE comprises radio frequency (RF) unit, and this radio frequency (RF) unit is used for sending or receiving radio signals; And processor, this processor is coupled to RF unit, and is configured to the beep-page message receiving instruction group, utilizes the reason of setting up of instruction group to control (RRC) connection to set up radio resource; And send the up link interest Indication message of notification service or group.
Beneficial effect of the present invention
Group communication can be supported via MBMS.
Brief Description Of Drawings
Fig. 1 illustrates LTE system framework.
Fig. 2 illustrates the block diagram of the framework of typical E-UTRAN and typical EPC.
Fig. 3 illustrates the user-plane protocol stack of LTE system and the block diagram of control plane protocol stack.
Fig. 4 illustrates the example of physical channel structure.
Fig. 5 illustrates that MBMS defines.
Fig. 6 illustrates MBSM (E-MBMS) logical architecture of enhancement mode.
Fig. 7 illustrates high level architecture whole for GCSE_LTE.
Fig. 8 illustrates the example of the method for sending interest instruction according to the embodiment of the present invention.
Fig. 9 illustrates another example of the method for sending interest instruction according to the embodiment of the present invention.
Figure 10 illustrates the wireless communication system realizing the embodiment of the present invention.
Embodiment
Technology described below can use in various wireless communication system, such as code division multiple access (CDMA), frequency division multiple access (FDMA), time division multiple access (TDMA), OFDM (OFDMA), single-carrier frequency division multiple access (SC-FDMA) etc.CDMA can realize with the radiotechnics of such as universal terrestrial radio electricity access (UTRA) or CDMA-2000.TDMA can realize with the radiotechnics of such as global system for mobile communications (GSM)/General Packet Radio Service (GPRS)/enhanced data rates for gsm evolution (EDGE).OFDMA can realize with the radiotechnics of the UTRA (E-UTRA) of such as IEEE (IEEE) 802.11 (Wi-Fi), IEEE802.16 (WiMAX), IEEE802-20, evolution etc.IEEE802.16m is the evolution of IEEE802.16e, and provides the backward compatibility with the system based on IEEE802.16.UTRA is a part of Universal Mobile Telecommunications System (UMTS).Third generation partner program (3GPP) Long Term Evolution (LTE) is a part of the UMTS (E-UMTS) of the evolution using E-UTRA.3GPPLTE uses OFDMA in the downlink, and uses SC-FDMA in the uplink.Senior LTE (LTE-A) is the evolution of 3GPPLTE.
For the sake of clarity, following description will concentrate on LTE-A.But technical characteristic of the present invention is not limited to this.
Fig. 1 illustrates LTE system framework.Communication network is widely deployed the various communication services to be provided such as voice over internet protocol (VoIP) by IMS and grouped data.
With reference to figure 1, LTE system framework comprises one or more subscriber equipment (UE; 10), the UMTS Terrestrial Radio Access Network network (E-UTRA) of evolution and evolution block core (EPC).UE10 refers to the communication equipment that user carries.UE10 can be fixing or movement, and can be called as other terms, such as mobile radio station (MS), user terminal (UT), subscriber station (SS), wireless device etc.
E-UTRAN comprises one or more enode-B (eNB) 20, and multiple UE can be arranged in a community.ENB20 provides the end points of control plane and user plane to UE10.The fixed station that eNB20 normally communicates with UE10 and can another term be called as, such as base station (BS), base transceiver systems (BTS), access point etc.An eNB20 can be disposed in each community.At the covering memory of eNB20 in one or more community.Single subdistrict is configured to have one in the bandwidth selected from 1.25,2.5,5,10 and 20MHz etc., and down link or uplink transmission services are supplied to several UE.Under these circumstances, different communities can be configured to provide different bandwidth.
Hereinafter, down link (DL) represents the communication from eNB20 to UE10, and up link (UL) represents the communication from UE10 to eNB20.In DL, reflector can be a part of eNB20, and receiver can be a part of UE10.In UL, reflector can be a part of UE10, and receiver can be a part of eNB20.
EPC comprises the Mobility Management Entity (MME) of responsible control plane function and System Architecture Evolution (SAE) gateway (S-GW) of responsible user-plane function.MME/S-GW30 can be positioned in the end of network and be connected to external network.MME has UE access information or UE performance information, and such information can mainly use in UE mobile management.The gateway of S-GW to be its end points be E-UTRAN.MME/S-GW30 is provided for the mobile management function of UE10 and the end points of session.EPC may further include packet data network (PDN) gateway (PDN-GW).The gateway of PDN-GW to be its end points be PDN.
MME provides to eNB20 and comprises Non-Access Stratum (NAS) signaling, NAS signaling security, Access Layer (AS) fail safe controls, for (CN) node signaling between the ambulant core network between 3GPP access network, idle pulley UE attainability (comprising execution and the control of paging re-transmission), tracking zone list management (UE under free time and active mode), P-GW and S-GW selects, the MME of the switching changed for utilizing MME selects, the Serving GPRS Support Node (SGSN) being switched to 2G or 3G3GPP access network is selected, roaming, certification, comprise the bearer management function that dedicated bearer is set up, support the various functions of public warning system (PWS) (comprising earthquake and SSWWS (ETWS) and commercial mobile alarm system (CMAS)) transmission of messages.S-GW main frame provides and comprises based on the packet filtering (by such as, deeply dividing into groups to check) of each user, Lawful intercept, UE Internet protocol (IP) address assignment, conveying rank grouping mark in DL, the charging of UL and DL service class, gate and speed enforcement, the various functions that strengthen based on the DL speed of APN-AMBR.In order to clear, will be referred to simply as " gateway " at this MME/S-GW30, but understanding this entity comprises both MME and S-GW.
Interface for sending customer service or service control can be used.UE10 and eNB20 is connected by means of Uu interface.ENB20 is interconnected by means of X2 interface.Adjacent eNB can have mesh network topology, and it has X2 interface.ENB20 is connected to EPC by means of S1 interface.ENB20 is connected to MME by means of S1-MME interface, and is connected to S-GW by means of S1-U interface.S1 interface is supported in the many-to-many relationship between eNB20 and MME/S-GW.
Fig. 2 illustrates the block diagram of the framework of typical E-UTRAN and typical EPC.Can perform for the selection of gateway 30, in the function that radio resource to control between (RRC) active period towards the scheduling of the scheduling of the route of gateway 30, beep-page message and transmission, broadcast channel (BCH) information and transmission, the configuration of measuring to the dynamic assignment of the resource of UE10, eNB in both UL and DL and supply, radio bearer control, radio access control (RAC) and the connection mobility under LTE_ACTIVE state control with reference to figure 2, eNB20.In EPC, and as above indicate, gateway 30 can perform paging initiation, the encryption of LTE_IDLE condition managing, user plane, SAE Bearer Control and the encryption of NAS signaling and the function of integrity protection.
Fig. 3 illustrates the user-plane protocol stack of LTE system and the block diagram of control plane stack.Fig. 3-(a) illustrates the block diagram of the user-plane protocol stack of LTE system, and Fig. 3-(b) illustrates the block diagram of the control plane protocol stack of LTE system.
Based on three layers below known open system interconnection (OSI) model in a communications system, the layer of the radio interface protocol between UE and E-UTRAN can be classified into ground floor (L1), the second layer (L2) and third layer (L3).Radio interface protocol between UE and E-UTRAN can be flatly divided into physical layer, data link layer and network layer, and can be divided vertically into as the control plane (C plane) of the protocol stack transmitted for control signal and the user plane (U plane) as the protocol stack for data information transfer.The layer of radio interface protocol exists in couples at UE and E-UTRAN place, and is responsible for the transfer of data of Uu interface.
Physics (PHY) layer belongs to L1.PHY layer provides information transfer service by physical channel to higher level.PHY layer is connected to medium education (MAC) layer of the higher level as PHY layer by transport channel.Physical channel is mapped to transport channel.Between MAC layer and PHY layer, data are transmitted by transport channel.In different PHY layer, namely between the PHY layer of reflector and the PHY layer of receiver, radio resource is used to pass through physical channel transfers data.Use OFDM (OFDM) scheme to modulate physical channel, and utilize time and frequency as radio resource.
PHY layer uses several physical control channel.Physical downlink control channel (PDCCH) to UE report about the Resourse Distribute of paging channel (PCH) and downlink sharied signal channel (DL-SCH) and the hybrid automatic repeat-request relevant to DL-SCH (HARQ) information.PDCCH can carry the UL license of the Resourse Distribute for transmitting to UE report about UL.Physical control format indicator channel (PCFICH) is used to the number of the OFDM symbol of PDCCH to UE report, and is sent out in each subframe.Physical Hybrid ARQ Indicator channel (PHICH) carrying is in response to HARQ affirmative acknowledgement (ACK)/negative response (NACK) signal of UL transmission.Physical uplink control channel (PUCCH) carries the UL control information of HARQACK/NACK, dispatch request and the CQI such as transmitted for DL.Physical uplink link shared channels (PUSCH) carries UL-uplink shared channel (SCH).
Fig. 4 illustrates the example of physical channel structure.
Physical channel is made up of the multiple subframe in time domain and the multiple subcarriers in frequency domain.A subframe is made up of the multiple symbols in time domain.A subframe is made up of multiple Resource Block (RB).A RB is made up of multiple symbol and multiple subcarrier.In addition, each subframe can use the specific subcarrier of the special symbol of corresponding subframe for PDCCH.Such as, the first symbol of subframe can be used to PDCCH.PDCCH carries the resource of dynamic assignment, such as Physical Resource Block (PRB) and modulation and compilation scheme (MCS).Transmission Time Interval (TTI) as the unit interval for transfer of data can equal the length of a subframe.The length of a subframe can be 1ms.
According to whether channel is shared, transport channel is classified into public transport channel and dedicated transport channel.DL transport channel for the data coming from network being sent to UE comprise for transmitting system information broadcast channel (BCH), for send beep-page message paging channel (PCH), for sending the DL-SCH etc. of customer service or control signal.DL-SCH is by change modulates, compiling and transmitted power and dynamically and both semi-persistent resource distribution support HARQ, dynamic link adaptation.DL-SCH also can enable the broadcast of whole community and the use of Wave beam forming.System information carries one or more system information block.All system information blocks can be sent with identical periodicity.Business or the control signal of multimedia broadcast/multicast service (MBMS) can be sent by DL-SCH or Multicast Channel (MCH).
UL transport channel for the data coming from UE being sent to network comprises Random Access Channel (RACH) for sending initial control message, for sending the UL-SCH etc. of customer service or control signal.UL-SCH supports HARQ and dynamic link adaptation by changing transmitted power and potential modulation and compiling.UL-SCH also can enable the use of Wave beam forming.RACH is normally used for the initial access to community.
MAC layer belongs to L2.Via logic channel, using service, the radio link be supplied to as the higher level of MAC layer controls (RLC) layer to MAC layer.MAC layer provides the function of multiple mapping logical channels to multiple transport channel.The function of MAC layer also by providing logic channel multiplexing to single transport channel multiple mapping logical channels.Media access control sublayer provides data delivery service on logical channels.
According to the type of the information be sent out, logic channel is classified into for the control channel of transfer control plane information and the Traffic Channel for transmitting user plane information.That is, the different pieces of information for being provided by MAC layer transmits service, the set of definition of logical channels type.Logic channel is positioned at the top of transport channel, and is mapped to transport channel.
Control channel is only used to the transmission of control plane information.The control channel provided by MAC layer comprises Broadcast Control Channel (BCCH), Paging Control Channel (PCCH), Common Control Channel (CCCH), multicast control channel (MCCH) and Dedicated Control Channel (DCCH).BCCH is the downlink channel for broadcast system control information.PCCH is the downlink channel of transmission paging information and is used when network does not know the location cell of UE.CCCH is used by not having the UE be connected with the RRC of network.MCCH is used to the point-to-multipoint downlink channel MBMS control information coming from network being sent to UE.DCCH is the point-to-point two-way channel used by the UE with RRC connection sending dedicated control information between UE and network.
Traffic Channel is only used to the transmission of user plane information.The Traffic Channel provided by MAC layer comprises Dedicated Traffic Channel (DTCH) and Logical Traffic Channels (MTCH).DTCH is point-to-point channel, is exclusively used in a UE for the transmission of user profile to exist in both the up link and down link.MTCH is the point-to-multipoint downlink channel for the business datum coming from network being sent to UE.
Up link between logic channel and transport channel connects and comprises the DCCH that can be mapped to UL-SCH, the DTCH that can be mapped to UL-SCH and can be mapped to the CCCH of UL-SCH.Down link between logic channel and transport channel connects and comprises the BCCH that can be mapped to BCH or DL-SCH, the PCCH that can be mapped to PCH, the DCCH of DL-SCH can be mapped to and can be mapped to DL-SCH DTCH, the MCCH of MCH can be mapped to and the MTCH of MCH can be mapped to.
Rlc layer belongs to L2.By the data received from higher level in radio segmentation cascade and segmentation, rlc layer provides the function regulating size of data, to be suitable for lower level sending data.In addition, in order to ensure the various service quality (QoS) required by radio bearer (RB), rlc layer provides three kinds of operator schemes, that is, transparent mode (TM), negative response pattern (UM) and affirmative acknowledgement pattern (AM).In order to reliable data transmission, AMRLC provides functions of retransmission by HARQ (ARQ).Meanwhile, the functional block of MAC layer inside is utilized can to realize the function of rlc layer.Under these circumstances, rlc layer can not exist.
Packet data convergence protocol (PDCP) layer belongs to L2.PDCP layer provides the function of header compression function, and it reduces unnecessary control information and the data by adopting the IP of such as IPv4 or IPv6 to divide into groups to send can be sent efficiently on the radio interface with relatively little bandwidth.By being only sent in the necessary information in the header of data, header-compressed increases the efficiency of transmission in radio segmentation.In addition, PDCP layer provides the function of fail safe.The function of fail safe comprises the integrity protection preventing the encryption of third-party inspection and prevent third-party data manipulation.
Radio resource controls (RRC) and belongs to L3.Rlc layer is positioned at the lowermost portion of L3, and is only defined in the control plane.Rrc layer plays the effect of the radio resource controlled between UE and network.For this reason, UE and network exchange RRC information by rrc layer.Rrc layer controls with the configuration of RB, reconfigures and discharge relevant logic channel, transport channel and physical channel.RB is the logical path for the data delivery between UE and network provided by L1 and L2.That is, RB to represent for UE and E-UTRAN between the service provided for L2 of transfer of data.The configuration of RB is inferred and is used to specify radio protocol layers and the characteristic of channel to provide special services and process for determining each detail parameters and operation.RB is classified into two types, that is, signaling RB (SRB) and data RB (DRB).SRB is used as the path sending RRC information in the control plane.DRB is used as in user plane the path sending user data.
With reference to figure 3-(a), RLC and MAC layer (being terminated in eNB on the network side) can perform such as dispatch, the function of HARQ (ARQ) and hybrid automatic repeat-request (HARQ).The user-plane function that PDCP layer (stopping in eNB on the network side) can perform such as header-compressed, integrity protection and encrypt.
The identical function for control plane can be performed with reference to figure 3-(b), RLC and MAC layer (being terminated in eNB on the network side).Rrc layer (being terminated in eNB on the network side) can perform such as broadcast, paging, RRC connection management, RB control, the function of mobility functions and UE measurement report and control.The function that NAS control protocol (being terminated in the MME of gateway on the network side) can perform the paging initiation in such as SAE bearer management, certification, the process of LTE_IDLE mobility, LTE_IDLE and control for the fail safe of the signaling between gateway and UE.
RRC state indicates whether that the rrc layer of UE is logically connected to the rrc layer of E-UTRAN.RRC state can be divided into the different state of such as RRC connection status and RRC idle condition two kinds.When setting up RRC and connect between the rrc layer and the rrc layer of E-UTRAN of UE, UE is in RRC_CONNECTED, otherwise UE is in RRC_IDLE.Connect because the UE be in RRC_CONNECTED has the RRC utilizing E-UTRAN to set up, thus E-UTRAN can identify the UE be in RRC_CONNECTED existence and can control UE effectively.Meanwhile, the UE be in RRC_IDLE cannot be identified by E-UTRAN, and CN manages UE in units of the region TA larger than community.That is, in units of large regions, identify the existence of the UE be only in RRC_IDLE, and UE must be converted to RRC_CONNECTED to receive the typical mobile communications service of such as speech or data communication.
In rrc-idle state, UE can the broadcast of receiving system information and paging information, simultaneously UE specifies the discrete reception (DRX) configured by NAS, and UE has been assigned with the mark (ID) of the UE in recognition and tracking region uniquely and can have performed public land mobile network (PLMN) selection and cell reselection.In addition, in rrc-idle state, RRC context is not stored in the enb.
In rrc--connected state, UE has E-UTRANRRC and connects and context in E-UTRAN, makes data to be sent to eNB and/or to receive data from eNB to become possibility.In addition, UE can to eNB reporting channel quality information and feedback information.In rrc--connected state, E-UTRAN knows the community belonging to UE.Therefore, data can be sent to UE and/or receive data from UE by network, network can control UE mobility (switch and to have network assisted cell change (NACC) GSMEDGE radio access network (GERAN) radio access technologies (RAT) between cell change order), and network can perform the cell measurement for neighbor cell.
Under RRC_IDEL state, UE specifies paging DRX cycle.Particularly, UE is at the specific paging occasion place monitor for pages signal of the specific paging DRX cycle of each UE.Paging occasion is the time interval that paging signal is sent out period.UE has himself paging occasion.
Beep-page message is sent out on all communities belonging to identical tracing area.If UE moves to another TA from a TA, then tracking area update (TAU) message is sent to network to upgrade its position by UE.
When user is energized to UE at first, first UE searches suitable community and then remains in the cell in RRC_IDLE.When there is the demand setting up RRC connection, the UE remained in RRC_IDLE is connected by the RRC of RRC connection procedure and E-UTRAN and then can be converted to RRC_CONNECTED.When call attempt due to user etc., when uplink data transmission is required, or when when the demand from existence transmission response message during E-UTRAN paging receiving message, the UE remained in RRC_IDLE can need to set up and be connected with the RRC of E-UTRAN.
As everyone knows, different cause values can be mapped to the signature sequence for sending message between UE and eNB, and CQI (CQI) or path loss and reason or message size are the candidates for comprising in initial leading.
When UE wants access network and determines the message that will be sent out, message can be linked to object and cause value can be determined.The size of desirable message also by identifying all optional information and different alternative sizes, such as can be determined by removing optional information, or can the scheduling request information of alternative can be used.
UE obtains for leading transmission, UL interference, pilot tone transmitted power and for the information of necessity of the signal to noise ratio (SNR) required by the detection of preamble at receiver place or its combination.This information must allow the calculating of leading initial transmission power.From the angle of Frequency point, send UL message near leading so that guarantee that the transmission that identical channel is used to message is useful.
UE should consider that UL interference and UL path loss are so that guarantee that network receives leading with minimum SNR.UL interference can only be determined in the enb, and therefore, must be broadcasted by eNB before leading transmission and be received by UE.UL path loss can be regarded as with DL path loss similar, and can be estimated from the RX signal strength signal intensity received by UE when the transmitted power of the same pilot sequence for UE known cell.
Usually should depend on that eNB configures for the ULSNR required by leading detection, the number of such as Rx antenna and receiver performance.Send the quite static transmitted power of pilot tone and disturb the ULSNR of the necessity be separated with the UL of change, and the possible power excursion required by between leading and message, can be favourable.
Leading initial transmission power can be calculated roughly according to following equation:
Transmitted power=TransmitPilot-RxPilot+ULInterference+Offset+SNRRequired
Therefore, any combination of SNRRequired (required SNR), ULInterference (UL interference), TransmitPilot (transmission pilot tone) and Offset (skew) can be broadcasted.In principle, only a value must be broadcasted.This is important in current UMTS system, although in 3GPPLTE UL interference by mainly may be more constant than UMTS system neighbor cell interference.
UE determines the initial UL transmitted power of leading transmission, as explained above.Compared with the interference in community, the receiver in eNB can estimate absolute received power and relative received power.If the received signal power compared with interference is more than eNB known threshold, then eNB is leading by what consider to detect.
Even if the through-put power of leading initial estimation is not suitable, UE also performs power cumulative (powerramping) so that guarantee UE to be detected.If before next Stochastic accessing is attempted, do not receive ACK or NACK by UE, then another leadingly will probably can be sent out.Leading transmitted power can be increased, and/or can send leading in different UL frequencies so that increase the possibility detected.Therefore, detected leading actual transmission power need not be corresponded to as the leading initial transmission power by UE first calculated.
UE must determine possible UL transfer scheme.The transfer scheme of the number of the Resource Block that can comprise MCS and should be used by UE depends primarily on two parameters, particularly, and the size of the message that be sent out of the SNR at eNB place and requirement.
In fact, maximum UE message size or payload and required minimum SNR correspond to each transfer scheme.In umts, UE, according to the skew of the initial leading transmitted power estimated, requirement between leading and transfer block, maximum permission or available UE transmitted power, constant offset and additional allowance, determines whether can select transfer scheme to transmit before leading transmission.Leading needs in umts comprises any information about the transfer scheme selected by UE, because network does not need retention time and frequency resource, and therefore, indicates transfer scheme together with the message be sent out.
ENB must know size and the attainable SNR of UE of the message that UE intention sends, so that select correct transfer scheme when receiving leading and then retain necessary time and frequency resource.Therefore, known UE is in order to determine that initial leading through-put power is by the measured path loss probably considered in DL or some equivalent measurements, because the UE transmitted power compared with maximum permission or possible UE transmitted power is not known for eNB, so eNB can not according to leadingly estimating by the attainable SNR of UE of receiving.
ENB can calculate by the difference between the path loss estimated in the DL that compares and the path loss of UL.But used if power is cumulative, then this calculating is impossible, and does not correspond to the UE transmitted power of first calculated for leading UE transmitted power.In addition, the accuracy of the transmitted power of actual UE transmitted power and the transmission of UE intention is very low.Therefore, the CQI having proposed to compile in signature path loss or down link estimates and cause value in message size or UL.
Multicast broadcast multimedia service (MBMS) is described.Can with reference to the chapters and sections 5.8 of the chapters and sections 15 of 3GPPTS36.300V11.7.0 (2013-09) and 3GPPTS36.331V11.1.0 (2012-09).
Fig. 5 illustrates that MBMS defines.For MBMS, definition below can be introduced.
– MBSFN retaining zone: this is that all eNB can by synchronous and perform the region of the network of MBSFN transmission.MBSFN retaining zone can support one or more MBSFN region.In given frequency layer, eNB only can belong to a MBSFN retaining zone.MBSFN retaining zone is independent of the definition in MBMS region.
Transmission under-MBSFN transmission or MBSFN pattern: this is the simulcast transmission technology by realizing from the transmission of the same waveform of multiple community in the identical time.The MBSFN coming from the multiple communities in MBSFN region transmits the single transmission be regarded as by UE.
-MBSFN region: MBSFN region is made up of one group of community in the MBSFN retaining zone of network, their cooperations are to realize MBSFN transmission.Except reservation community, MBSFN region, all communities in MBSFN region contribute to MBSFN transmission and its availability of advertisement.UE only can need the subset in the MBSFN region considering to be configured, that is, when knowing which MBSFN region is applied to the service of its interesting reception.
Reservation community ,-MBSFN region: this does not contribute to the community in the MBSFN region of MBSFN transmission.This community can be allowed to serve in order to other, but be MBSFN transmission and the resource of distributing sends with the power limited.
-synchronizing sequence: each synchronous protocol data unit (SYNCPDU) comprises the timestamp of the time started of instruction synchronizing sequence.For MBMS, each synchronizing sequence has the identical duration, and it is configured in broadcast and multicast service centre (BM-SC) and MBMS cooperate entity (MCE).
-synchronous the period: the synchronous period provides time reference for the instruction of the time started of each synchronizing sequence.The timestamp provided in each SYNCPDU is the relative value of the time started with reference to the synchronous period.The duration of synchronous period is configurable.
In E-UTRAN, only (supporting the set of the community of both clean culture and MBMS transmission with non-MBMS, that is, the set of " MBMS/ clean culture mixing community ") in shared frequency layer, MBMS can be provided with the Single Frequency Network pattern of operation (MBSFN).
It is possible that MBMS receives for the UE under RRC_CONNECTED or RRC_IDLE state.No matter when receive MBMS, user's incoming call will be notified, and to make a call will be possible.For MBMS, do not support the header-compressed (ROHC) of robustness.
Fig. 6 illustrates MBSM (E-MBMS) logical architecture of enhancement mode.3GPPLTE can support MBMS, and 3GPPLTE-A can support E-MBMS.
Be connected with eNB via M2 interface with reference to figure 6, MCE, and be connected with MME via M3 interface.MCE is logic entity.MCE can be a part for another network element.The function of MCE is as follows.
The multiple cell MBMS transmission of – in order to use MBSFN to operate, the access control of the radio resource used by all eNB in MBSFN region and distribution.If radio resource is not for being sufficient corresponding MBMS or can according to distributing and keeping priority (ARP) from other radio bearer preemption radio resources of ongoing MBMS, then MCE determines the radio bearer not setting up new MBMS.Except the distribution of time/frequency radio resource, this also comprises the further details determining radio configuration, such as, and modulation and compilation scheme.
– is used for the counting of MBMS and the acquisition of count results.
– is based on such as ARP and/or the recovery for the MBMS session in the MBSFN region of the count results of corresponding MBMS.
– based on such as, ARP and/or the hang-up based on the MBMS session in the MBSFN region of the count results for corresponding MBMS.
MCE is related in MBMS session control signaling.MCE does not perform UE-MCE signaling.Service eNB is carried out by single MCE.
MBMSGW is logic entity.MBMSGW can be a part for another network element.It is between eNB and BMSC that divide into groups to each eNB transmissions/broadcasting MBMS sending service that MBMSG is present in its basic function.MBMSGW uses ip multicast as means MBMS user data being transmitted to eNB.MBMSGW performs MBMS session control signaling (session start/renewal/stopping) via MME towards E-UTRAN.
M3 interface is the control plane interface connected between MCE and MME.For this interface between MME and MCE, definition applying portion.This applying portion allows the MBMS session control signaling (that is, not transmitting radio configuration data) in E-UTRAN radio access bearer (E-RAB) rank.Process comprises, such as, and MBMS session start and stopping.SCTP (SCTP) is used as signaling transmission, that is, point-to-point signaling is employed.
M2 interface is the control plane interface connected between MCE and eNB.For this interface definition application section, it at least transmits radio configuration data for multiple cell transmission mode eNB and session control signaling.SCTP is used as signaling transmission, that is, point-to-point signaling is employed.
M1 interface is the pure user plane interface connecting MBMSGW and eNB.Therefore control plane application section is not defined for this interface.The point-to-multipoint that ip multicast is used to user grouping is sent.
Usually, only relevant with supporting the UE of MBMS control information is separated with unicast control information as far as possible.At logic channel specific for MBMS common control information, that is, MCCH provides most of MBMS control information.Each MBSFN region, E-UTRAN adopts a MCCH logic channel.When the multiple MBSFN region of network configuration, UE is from being configured to identify whether the ongoing MCCH of service of reception interested to obtain MBMS control information.The UE that can suppose to carry out MBMS is only required the reception supporting single MBMS at every turn.MCCH carries MBSFNAreaConfiguration message, and it indicates ongoing MBMS session and (accordingly) radio resource configuration.When E-UTRAN wish to count receiving or one or more specific MBMS of reception interested be in the number of the UE in RRC_CONNECTED time, MCCH also can carry MBMSCountingRequest message.
BCCH provides the MBMS control information being limited quantity.This relates generally to the information needing to obtain MCCH.By means of single MBMS particular system block of information, that is, SystemInformationBlockType13 carries this information.MBSFN region is identified individually by the mbsfn-AreaId in SystemInformationBlockType13.In mobility, UE considers that MBSFN region is continuous print when identical value is broadcasted in cell-of-origin and Target cell in mbsfn-AreaId.
Use configurable repetition interval, send MCCH information termly.Do not provide schedule information for MCCH, that is, time-domain scheduling and lower level configuration both semi-statically configured, as in SystemInformationBlockType13 define.
For the MBMS user data carried by MTCH logic channel, E-UTRAN provides MCH schedule information (MSI) termly at lower level (MAC) place.This MCH information only relates to time-domain scheduling, that is, frequency domain scheduling and lower level configuration are semi-statically configured.The periodicity of MSI is configurable and is defined by MCH scheduling slot.
Group communication is described.Can with reference to 3GPPTR23.768V0.3.0 (2013-07).In order to support that group communication service enabler (GCSE) or the GCSE on LTE (GSCE_LTE) can define several term.GCSE group is the set of the member of qualified participation group communication service.Multipoint service is provided to GCSE application server (AS) and is used to identical group communication Data distribution8 in the effective mode of resource to the service of the UE of GCSE group.Multicast delivery be via the Internet resources be shared by group communication data delivery to the modes of delivery of multiple group membership.Unicast delivery is the resource via being exclusively used in group membership, and group communication data are delivered to the modes of delivery of particular group member.
Fig. 7 illustrates high level architecture whole for GCSE_LTE.Form with reference to grouping system (EPS) layer of the high level architecture described in figure 7, Fig. 7 by application layer and 3GPP evolution.Application layer is made up of GCSEAS.3GPPEPS layer is made up of MuSe function.MuSe function and 3GPPEPS entity interact to provide multipoint service functional.
Several reference point is there is in for the high level architecture of GCSE_LTE.
– GC1: it is the reference point between the GCSE application in UE and in GSCEAS.It is functional with the multiple spot enabled for GCSE_LTE that it is used to definition application level signaling request, and may be used for session establishment and ground control use etc.
– GC2: it is the reference point between GCSEAS and MuSe function.It is used to be defined in GCSEAS and the MuSe that provided by 3GPPEPS layer functional between interaction.
– GC3: it is the reference point between E-UTRAN and MuSe function.Its interaction being used to be defined between E-UTRAN and MuSe function is so that the multiple spot realizing being provided by 3GPPEPS layer is functional.
– GC4: it is the reference point between MME and MuSe function.Its reciprocation being used to be defined between MME and MuSe function is functional with the multiple spot realizing being provided by 3GPPEPS layer.
– GC5: it is the reference point between P-GW and MuSe function.It is used to provide DL unicast services by MuSe.
The option of GCSEAS will be allowed for determine whether to use unicast delivery or multicast delivery or both to carry out delivery group call data at above-described framework.
One of object of group communication is, the ability of assessment E-MBMS or other mechanism is to be provided for the group communication of public safety applications.That is, the group communication that can be provided for public safety applications via E-MBMS or other mechanism has been discussed.Also do not define the method for supporting the group communication via MBMS or E-MBMS.
The method for supporting the group communication via MBMS or E-MBMS according to the embodiment of the present invention is described.Hereinafter, assuming that MBMS represents both MBMS and E-MBMS.
Fig. 8 illustrates the example of the method for sending interest instruction according to the embodiment of the present invention.
In the step s 100, UE receives the beep-page message of instruction group.Beep-page message can comprise the paging reason of instruction group communication or GCSE.Beep-page message may further include GCSEID.GCSEID can be one in group ID or application ID.Group can be the GCSE group comprising the group membership participating in group communication service.UE can belong to group.
In step s 110, UE utilizes the reason of setting up of instruction group to connect to set up RRC.The reason of setting up of instruction group can be in group communication or GCSE one.UE can send RRC connection request message during RRC connection establishment process or message has been set up in RRC connection.
In the step s 120, UE sends the up link interest Indication message of notification service or group.Service can be MBMS or MBMS session.Up link interest Indication message can be MBMS interest Indication message.Up link interest Indication message can be sent to network, that is, one in eNB, MME or GCSE server.
Fig. 9 illustrates another example of the method for sending interest instruction according to the embodiment of the present invention.
In step s 200, UE receives the beep-page message that instruction is used for the group of group communication.Beep-page message can comprise " group communication " or " GCSE " as the paging reason in beep-page message.In addition, beep-page message can comprise GCSEID (that is, organizing ID or application ID).Group can be GCSE group.UE can belong to the group held for multiple UE of swap data/voice/video in group.
In step S210, UE passes through transmission RRC connection request message or RRC connection has set up message to utilize the reason of setting up of instruction " group communication " or " GCSE " to set up RRC connection.
In step S220, service or group notice are arrived the network of such as eNB, MME or GCSE server by UE.Service or group can be indicated via up link interest Indication message.Service can be MBMS or MBMS session.Under these circumstances, up link interest Indication message can be MBMS interest Indication message.
In step S230, UE monitors the broadcast/multi broadcast control information about the service relevant with group via MCCH channel.Broadcast/multi broadcast control information can be MCCH information, that is, the RRC information of MCCH carrying.
In step S240, UE receives the broadcast/multi broadcast data relevant with the service of group.Data can be carried on broadcast/multi broadcast business channel (that is, MTCH channel).
Hereinafter, describe for current additional description.
(1) current, the UE being in RRC_IDLE and both the UE being in RRC_CONNECTED can receive MBMS on MBSFN region.But consider that group membership may need uplink channel to greet each other, this seems not to be the situation for group communication.That is, when can suppose to relate to UE in group communication, UE will be in RRC_CONNECTED very soon.When the initiation of group communication, network paging can be in UE in RRC_IDLE to trigger RRC connection establishment by " MT access ".
This supposition can make it be easier to the service continuity for group communication and radio efficiency are discussed.Such as, compared with the connection establishment with " MBMS reason " in UMTS, if supposition UE will be in RRC_CONNECTED, then from the transformation unicasting to E-MBMS RRC connection establishment by the access of type of not looking for novelty.Further, in the transformation from E-MBMS to clean culture, network easily can set up the unicast bearer of the service continuity for group communication.Even, UE can be configured for both DRB and MRB of the identical group communication for fast transition.
Therefore, can propose when UE is related to group communication, UE will be in RRC_CONNECTED.In addition, the RRC connection establishment that can propose to be driven by E-MBMS object is not designated.
(2) resource efficiency aspect is regarded as the limit priority studied on group communication.One of subject matter in resource efficiency is " multicast/clean culture process ".Such process can correspond to E-MBMS and for special services and for the particular UE that receives service clean culture between the network capabilities sent of switch data.
Such network capabilities seem by which kind of MBMS received about particular UE with communicate in particular group in relate to how many UE knowledge based on.But existing network does not know which MBMS that UE is receiving, no matter RRC state.Because MBMS interest Indication message only indicates MBMS frequency (having MBMS priority), so based on MBMS interest Indication message, network only can know the MBMS frequency that the UE be in RRC_CONNECTED is receiving.
Although tally function is used to help network to know that how many UE be in RRC_CONNECTED are receiving specific MBMS, but network performs counting in requisition in each amendment period, so that keep following the tracks of the MBMS accepting state in UE, because MBMS accepting state can at any time change in UE.But, under the high capacity situation that group communication relates generally to, use counting each period that significant uplink signalling can be caused to bear.
But, if expect that network can switch groups communication between E-MBMS and clean culture, then network should know which group is particular UE belong to, so that estimate relate to how many UE in for the group communication of specific cell and then determine the transmission mode between clean culture and E-MBMS for organizing.
By using MBMS interest Indication message, independent UE can notify that E-UTRAN is about the interested MBMS for group communication, so that help network to perform switching.If this is the case, to consider during switching current transmission MBMS interest Indication message on X2, eNB can remain the date and time information about the specific MBMS accepting state of UE.Transmitted by this X2, the uplink signalling in high capacity situation can be avoided.
Therefore, can propose to add MBMS class information in MBMS interest Indication message so that help network-evaluatedly to be in group communication to relate to how many UE in specific cell.Based on this information, E-UTRAN can in the specific MBMS session of community place on/off.
In addition, if the transformation between MBMS and clean culture frequency occurs, then the fringe cost that may cause such as signaling burden and service disruption is switched.Such as, no matter when in order to identical group communication, UE is in another moving between cells of the community and use MBMS that use clean culture, and UE will apply and reconfigures and also lose some groupings on the turn.Such fringe cost may damage the advantage of the resource efficiency that we can realize by the switching between clean culture and MBMS.
Assuming that only send down link data via in DRB and MRB, even if when UE is receiving the MBMS for identical group communication, avoid signaling to bear and service disruption one of mode seemingly network configure unicast bearer, that is, for the DRB in the UE of ongoing group communication always.If it is like this, switch data is sent may until application layer.
Such as, if UE moves to the community of not service group via MBMS, if or UE does not detect group communication in MBSFN region, then UE should stop receiving MBMS, and the application layer then in UE can with application server communication to recover group communication via the unicast bearer be configured.
On the other hand, if UE moves to the community of service group via MBMS, if or UE in MBSFN region, group communication detected, then the application layer in UE can with application server communication with via the unicast bearer be configured to hang up group communication.Then, UE can start to receive the MTCH for group communication.
Hypothetical network can be configured for the DRB of ongoing group communication all the time, no matter MBMS transmission, and application layer is also in order to unicast transmission and application server communication, and switch data is sent and can be depended on application layer.
(3) service continuity aspect is regarded as the limit priority of the research to group communication.In order to service continuity, we may need to consider following scene:
1) service continuity of the identical group communication between E-MBMS and clean culture at same cells place
– is at the service continuity from E-MBMS to clean culture at same cells place: network can sending, such as, because the number of group membership becomes lower than threshold value in order to the group membership's group communication of change from MRB to DRB in community.
– at same cells place from the service continuity unicasting to E-MBMS: network can change sending, such as, because the number of group membership becomes be greater than threshold value of group communication from DBR to MRB for the group membership of community.
2) service continuity (switching) of the identical group communication between the E-MBMS and clean culture at different districts place
– is at the service continuity from E-MBMS to clean culture at different districts place: when the UE performing group communication on E-MBMS moves to Target cell, it can be found out Target cell and not broadcast the MBMS corresponding with group communication.This is because community can provide unicast transmission to the member UE in group, or the member UE of UE also in not service group.
– at different districts place from the service continuity unicasting to E-MBMS: when the UE performing group communication in clean culture moves to Target cell, it can be found out Target cell and broadcast the MBMS corresponding with group communication, does not provide the unicast transmission of group communication simultaneously.This is because Target cell such as determines due to resource efficiency to provide group communication on E-MBMS.
3) service continuity of the identical group communication between different MBSFN regions on same frequency or different frequency: when the UE performing group communication on E-MBMS moves to Target cell from cell-of-origin, it can be found out Target cell and broadcast the MBMS corresponding with identical group communication in different MBSFN regions.That is, source MBSFN region and target MBSFN region are different MBSFN regions (in identical frequency or different frequencies).This is because MBSFN region can be limited geographically, that is, a MBSFN region can not cover whole country.
Whether these all scenes should be discussed or some in them are supported.
The UE performing group communication can move to the community of not service group via E-MBMS.Therefore, if if Target cell current be provided for organize unicast transmission or Target cell be not also provided for organize any transmission (namely, there is no group membership) before, then discuss the transmission that Target cell will be supplied to any type of the UE of the incoming call performing group communication, namely, clean culture or E-MBMS, can be beneficial to.
UE mono-moves to Target cell, and Target cell just can start MBMS transmission, because the number of group membership becomes be greater than threshold value, or can provide unicast transmission to the UE of incoming call.
Such as, if the MBMS transmission that network starts for organizing due to the MCCH renewal revised at long MCCH in the period, then its beginning MBMS that may expend time in.Such as, by coming from the request of the UE of incoming call or by estimation network in a network, the MBMS session transmissions that will how to start for the UE of incoming call is unclear in specific community in order to GCSE.
Consider the initial setup time of transmission and public safety service condition, if Target cell provides group communication via unicast bearer to group membership, if or also do not provide group communication in Target cell before, then desirably Target cell provides unicast transmission to the UE of incoming call.From the angle of UE, if UE moves via the community of unicast bearer from service group, then UE can continue to depend on unicast bearer, as common switch instances.
It means not suppose that the UE of incoming call is not for providing the specific cell of MBMS session to network request MBMS session transmissions.In a word, when group membership increases at community place, such as, by estimating the number of the group membership at network place, network can determine to become MBMS from clean culture.
The UE performing group communication can move to the community of service group via E-MBMS.Under these circumstances, we currently rely on UE internal act.But, due to potential out of service time, it is not clear whether traditional operation is sufficient for public safety.
Such as, if cell-of-origin and Target cell belong to the different MBSFN region for identical group communication, then normal MBMSUE will spontaneously test set communication on MCCH, and then receive the MTCH for organizing.But it may expend the time longer than the normal switching of DRB.
Therefore, particularly, when UE moves to another MBSFN region in order to identical group communication from a MBSFN region, because potential out of service time needs to be verified, so whether traditional MBMSUE operation is sufficient for public safety.
Figure 10 illustrates the block diagram of the wireless communication system realizing the embodiment of the present invention.
ENB800 comprises processor 810, memory 820 and radio frequency (RF) unit 830.Processor 810 can be configured to the function be suggested, process and/or the method that realize in this manual.The layer of radio interface protocol can realize in processor 810.Memory 820 is operationally coupled with processor 810, and the various information of storage operation processor 810.RF unit 830 is operationally coupled with processor 810, and sends and/or receive radio signals.
UE900 comprises processor 910, memory 920 and RF unit 930.Processor 910 can be configured to the function of the proposition realizing describing in this manual, process and/or method.The layer of radio interface protocol can realize in processor 910.Memory 920 is operationally coupled with processor 910, and the various information of storage operation processor 910.RF unit 930 is operationally coupled with processor 910, and sends and/or receive radio signals.
Processor 810,910 can comprise application-specific integrated circuit (ASIC) (ASIC), other chipsets, logical circuit and/or data processing equipment.Memory 820,920 can comprise read-only memory (ROM), random access memory (RAM), flash memory, memory card, storage medium and/or other memory devices.RF unit 830,930 can comprise baseband circuit to process radiofrequency signal.When embodiment is with software simulating, the technology described herein can realize with the module (such as, process, function etc.) performing the function described herein.Module can be stored in memory 820,920, and is performed by processor 810,910.Memory 820,920 can realize in processor 810,910 or in the outside of processor 810,910, and under outside realizes situation, memory 820,920 is via being such as coupled to processor 810,910 communicatedly in various means known in the art.
Be it seems by the example system described herein, describe the method that can realize according to disclosed theme with reference to some flow charts.Although in order to the object simplified, these methods are shown and described as a series of step or module, but should be understood that and understand, required theme does not limit by the order of step or module, because some steps can to occur from the different order described herein and describe or to occur with other steps simultaneously.In addition, it should be appreciated by those skilled in the art that illustrated step is not exclusive in flow charts, and other steps can be comprised, or the one or more steps in example flow diagram can be deleted, and do not affect the scope of the present disclosure and spirit.
Claims (15)
1., for being sent the method indicated for the interest of group communication in a wireless communication system by subscriber equipment (UE), described method comprises::
Receive the beep-page message of instruction group;
The reason of setting up of described group of instruction is utilized to control (RRC) connection to set up radio resource; And
Send the up link interest Indication message of notification service or described group.
2. method according to claim 1, wherein, described service is multicast broadcast multimedia service (MBMS) service or MBMS session.
3. method according to claim 2, wherein, described up link interest Indication message is MBMS interest Indication message.
4. method according to claim 1, wherein, described up link interest Indication message is sent in e Node B (eNB), Mobility Management Entity (MME) or group communication service enabler (GCSE) server.
5. method according to claim 1, wherein, described beep-page message comprises the paging reason of instruction group communication or GCSE.
6. method according to claim 1, wherein, described beep-page message comprises GCSE identity (ID).
7. method according to claim 6, wherein, described GCSEID is one in group ID or application ID.
8. method according to claim 1, wherein, described group is GCSE group, and described GCSE group comprises the group membership participating in group communication service.
9. method according to claim 1, wherein, described UE belongs to described group.
10. method according to claim 1, wherein, the reason of setting up indicating described group is in group communication or GCSE one.
Subscriber equipment (UE) in 11. 1 kinds of wireless communication systems, described UE comprises:
Radio frequency (RF) unit, described radio frequency (RF) unit is used for sending or receiving radio signals; And
Processor, described processor is coupled to described RF unit, and is configured to:
Receive the beep-page message of instruction group;
The reason of setting up of described group of instruction is utilized to control (RRC) connection to set up radio resource; And
Send the up link interest Indication message of notification service or described group.
12. UE according to claim 11, wherein, described service is multicast broadcast multimedia service (MBMS) service or MBMS session.
13. UE according to claim 12, wherein, described up link interest Indication message is MBMS interest Indication message.
14. UE according to claim 11, wherein, described up link interest Indication message is sent in e Node B (eNB), Mobility Management Entity (MME) or group communication service enabler (GCSE) server.
15. UE according to claim 11, wherein, described beep-page message comprises the paging reason of instruction group communication or GCSE.
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CN105409255B (en) | 2019-05-14 |
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